The subpubic angle in sex determination: anthropometric measurements and analyses on Anatolian Caucasians using multidetector computed tomography datasets.

INTRODUCTION AND AIM The investigation of new anatomical criteria and revalidation of existing ones in sex determination for different populations are among main research foci of forensic anthropometry. In that context, the pelvis is the most extensively studied bone. A number of qualitative classifications, dimensional measurements and indices have been proposed for investigative anthropometry and forensic studies. Independent use of these parameters generally provided an accuracy rate of 70-75%. In this study, the accuracy rate of the subpubic angle in sex determination was investigated in living Anatolian Caucasians. MATERIAL AND METHOD The subpubic angle was identified and measured on three-dimensional computed tomographic images of pelves. Data were obtained using 64-detector computed tomography (MDCT) with an isotrophic resolution of 500 μm. The sample included 66 males (41.6 ± 14.9 years of age) and 43 females (41.1 ± 14.2 years of age). Measurements were taken on a dedicated three-dimensional image analysis workstation. The subpubic angle was electronically measured. The technique and methodology was validated on a standard skeletal model. Intraobserver agreement was analyzed with intraclass correlation coefficient, and intraobserver variability was evaluated with technical error of measurement (inter- and intra-observer TEM), relative technical error of measurement (rTEM) and coefficient of reliability (R) measures. The subpubic angle for the study group and for both sexes was reported as minimum-maximum (mean ± SD). Independent-Samples T Test for equality of means was used to determine the difference between the two sexes regarding the subpubic angle. The correlation between the subpubic angle and the age of subjects were using Pearson Correlation Coefficients in males and in females. Logistic regression model was used to classify subjects according to their sex. Receiver operating characteristic curve analysis was performed to determine a cut-off value for further studies and to test the performance of the binary classification test. RESULTS Intraclass correlation for the subpubic angle (0.990), TEM (1082), rTEM (1.492), and R (0.990) represented almost complete reliability and accuracy of the measurement method. The subpubic angle was between 48° and 81° (65.9° ± 7.2°) in males and was between 64° and 100° (82.6° ± 7.7°) in females. Statistically significant difference was found between males and females regarding the subpubic angle (p < 0.0001). The subpubic angle was not significantly correlated with age in males (p = 0.953), or in females (r = 0.975). The accuracy of the subpubic angle in sex determination was 90.8%. With a cut-off value of 74°, sensitivity of subpubic angle to detect female phenotype was 88% and its specificity was 95%. CONCLUSION The subpubic angle is an accurate parameter in sex determination with high sensitivity and specificity.

[1]  W. M. Krogman The human skeleton in forensic medicine. I. , 1963, Postgraduate medicine.

[2]  Z. Rakočević,et al.  The reliability of sex determination of skeletons from forensic context in the Balkans. , 2005, Forensic science international.

[3]  S. Dixit,et al.  Sexing of human hip bones of Indian origin by discriminant function analysis. , 2007, Journal of forensic and legal medicine.

[4]  P. Igbigbi,et al.  Determination of Sex and Race from the Subpubic Angle in Ugandan Subjects , 2003, The American journal of forensic medicine and pathology.

[5]  G. Oladipo,et al.  Comparative Study of the Sub-Pubic Angles of Adult Ikwerres and Kalabaris , 2010 .

[6]  John Albanese,et al.  A metric method for sex determination using the hipbone and the femur. , 2003, Journal of forensic sciences.

[7]  C. Mascie-taylor,et al.  Precision of measurement as a component of human variation. , 2007, Journal of physiological anthropology.

[8]  O. Celbiş,et al.  Estimation of stature and determination of sex from radial and ulnar bone lengths in a Turkish corpse sample. , 2006, Forensic science international.

[9]  W. M. Krogman The skeleton in forensic medicine. , 1946, The Proceedings of the Institute of Medicine of Chicago.

[10]  M Steyn,et al.  Metric analysis of sex differences in South African black and white pelves. , 2005, Forensic science international.

[11]  Talita Adão Perini,et al.  Cálculo do erro técnico de medição em antropometria Cálculo del error técnico en la medición de antropometria Technical error of measurement in anthropometry , 2005 .

[12]  M. Steyn,et al.  Metric assessment of race from the pelvis in South Africans. , 2002, Forensic science international.

[13]  W. M. Krogman,et al.  Forensic Medicine: The Human Skeleton in Forensic Medicine. Part II. , 1955 .

[14]  M Steyn,et al.  Sexually dimorphic pelvic morphology in South African whites and blacks. , 2003, Homo : internationale Zeitschrift fur die vergleichende Forschung am Menschen.

[15]  J M Bland,et al.  Statistical methods for assessing agreement between two methods of clinical measurement , 1986 .

[16]  T W Phenice,et al.  A newly developed visual method of sexing the os pubis. , 1969, American journal of physical anthropology.

[17]  K. McGraw,et al.  Forming inferences about some intraclass correlation coefficients. , 1996 .

[18]  M. Barber,et al.  Variation of the obturator foramen and pubic arch of the female bony pelvis. , 2008, American journal of obstetrics and gynecology.

[19]  S. Washburn Sex differences in the pubic bone. , 1948, American Journal of Physical Anthropology.

[20]  Daniel Rougé,et al.  Virtual anthropology and forensic identification: report of one case. , 2007, Forensic Science International.

[21]  F. Joffre,et al.  New identification possibilities with postmortem multislice computed tomography , 2007, International Journal of Legal Medicine.

[22]  Jaroslav Bruzek,et al.  A method for visual determination of sex, using the human hip bone. , 2002, American journal of physical anthropology.

[23]  M Graw,et al.  Recommendations for the forensic diagnosis of sex and age from skeletons. , 2007, Homo : internationale Zeitschrift fur die vergleichende Forschung am Menschen.

[24]  T. Kanchan,et al.  Sexual dimorphism of acetabulum-pubis index in South-Indian population. , 2007, Legal medicine.

[25]  D. Kerr,et al.  Anthropometric measurement error and the assessment of nutritional status , 1999, British Journal of Nutrition.

[26]  Ahmet Harma,et al.  Determination of sex from the femur in Anatolian Caucasians: a digital radiological study. , 2007, Journal of forensic and legal medicine.

[27]  W Turner,et al.  The Index of the Pelvic Brim as a Basis of Classification. , 1885, Journal of anatomy and physiology.

[28]  M. Thali,et al.  Post-mortem forensic neuroimaging: correlation of MSCT and MRI findings with autopsy results. , 2007, Forensic science international.

[29]  A. Beckett,et al.  AKUFO AND IBARAPA. , 1965, Lancet.

[30]  M Y Işcan,et al.  Metric sex determination from the pelvis in modern Greeks. , 2008, Forensic science international.

[31]  P. Nwoha The anterior dimensions of the pelvis in male and female Nigerians. , 1995, African journal of medicine and medical sciences.

[32]  H. Karakas,et al.  Total body height estimation using sacrum height in Anatolian Caucasians: multidetector computed tomography-based virtual anthropometry , 2011, Skeletal Radiology.

[33]  Santiago Genovés L'estimation des différences sexuelles dans l'os coxal : différences métriques et différences morphologiques , 1959 .

[34]  H. Pannu,et al.  Architectural Differences in the Bony Pelvis of Women With and Without Pelvic Floor Disorders , 2003, Obstetrics and gynecology.

[35]  Ginesse A. Listi,et al.  Test of an Alternative Method for Determining Sex from the Os Coxae: Applications for Modern Americans * , 2006, Journal of forensic sciences.

[36]  R G Tague,et al.  Sexual dimorphism in the human bony pelvis, with a consideration of the Neandertal pelvis from Kebara Cave, Israel. , 1992, American journal of physical anthropology.